Showing posts with label india. Show all posts
Showing posts with label india. Show all posts

Rise of 3D Printing Factories and a Future without Work

CloudDDM is a company that operates like most 3D printing services where you can order parts through a web interface, but they're able to produce any part at high volumes and speed. They've recently opened a 3D printing factory inside UPS international hub in Louisville USA with one hundred 3D printers and plans to increase to a thousand. The machines run 24/7 and all the logistics are handled by UPS. They print in several materials like: ABS, Polycarbonate (PC), Polycarbonate-ABS (PC-ABS) and ULTEM 1010 with several color options.

CloudDDM 3D printers. DDM stands for "Direct Digital Manufacturing". Image source: CNN























Now the truly amazing (or frightening) thing about this factory is that it is highly automatized and operated by only THREE WORKERS! 3 people! 3! One per eight hour shift! Is this a new trend? Factories without ANY workers?

Lets see what other players are doing...

GE is a well known aerospace 3D printing manufacturer and here is how they see future of work:



Lots of 3d printers and robots producing and only a few people designing and carrying furniture. They look out of place and almost like decoration. I'll write about future of design work in future post about this topic ... but don't think machines can not design stuff also ...


Materialise has a 3D printing "factory" facilities with what looks like more people working:




But this is not a pure "factory" but more diverse design and production center with design, product development and engineering personnel. Another point is that they probably displace many "traditional" workers as they use cutting edge technology and logistics. Maybe even several orders of magnitude more then they employ. If you look closely you will find that even some of the workplaces showed in this video could be automated now or replaced by machines in couple of years.

Are we seeing a start of 3D printing factories replacing industrial workers? In the '90ties during the first dot-com bubble people predicted that the postal services will disappear because of email communication but they were wrong since they took over the much increased package shipments due to rise of e-commerce. Could this happen again with increased volume of 3D printed products? Probably not. 
Why?

Because the whole transport logistic sector is getting automatized! Deimler just presented their autonomous truck and the state of Nevada is supporting it with new autonomous vehicle legislation. Even the company said it will take some 10 years to have fully autonomous trucks on the roads with major regulatory obstacles but they are moving in that direction with most of the other tech companies like Tesla and Google. Do keep in mind that "truck driver" is most common profession in the USA with more than 9 million employed in the trucking industry or 1 in every 13 employed Americans.





Is this onset of technological unemployment unfolding in real life? Technological unemployment (or desourcing) is defined as a process of unemployment being caused mainly by technological advances. It is a controversial theory that has yet to be confirmed or disproved.

In 2014 Pew Research surveyed 1,896 technology professionals and economists and found a split in opinions: 48 percent of them believed that new technologies would displace more jobs than they would create by the year 2025, while 52 percent maintained that they would not. The implications of it being a reality would have HUGE societal impact on a global scale. What jobs are future proof?




Future will be interesting. Stay smart and think about all the possible scenarios!

As I live in a country with very high unemployment I have very personal interest in this topic and I think it is very important to investigate it and stay informed about it.

Do you think your job could be done by a machine or software? Share your opinions in comment section

Update (07.02.2016.):

Siemens opened first European 3d printing factory in Sweden.  The €21.4 million facility, located in Siemen’s industrial plant in Finspång, Sweden will have 20 employees and multiple industrial grade metal 3d printers. The factory will produce prototypes, end-product parts and replacement parts for repair focused on gas turbines.
Thorbjorn Fors, global business director for Distributed Generation at Siemens, said of the facility:
“With this investment, we can develop new and improved components and repairs, for example burner tips to serve our industrial gas turbine SGT-800, significantly faster. Using this innovative approach, we will shorten repair times from months to weeks. It is an important step in our ability to respond to the needs of our customers.”
Full press release in Swedish.

As we see there are more 3d printing factories being build with very small number of workers. This is also a start of the change in the Europe.

Siemens 3d printing factory in Sweden. Looks very clean. And empty of people. 



Update (15.04.2016.):

There are more 3D printing factories and production / prototyping centers being opened all over the world:

Airbus opened one in  the Ludwig Bolköw Campus near Munich.

From the source:
The Aerospace Factory, as the new 3D printing center at the facility is being called, will be based out of the Ludwig Bolköw Campus, an industry and university collaborative venture located on-site. The location will be used to research the 3D printing of endparts for use in aerospace through work performed by a number of important players including: Airbus Safran Launchers; metal 3D printer manufacturer EOS; engine maker MTU Aero Engines; the Technical University of Munich and its Institute for Machine Tools and Industrial Management; Airbus Group Innovations; the Fraunhofer Development Center for X-ray Technology (EZRT); Industrieanlagen-Betriebsgesellschaft mbH (IABG); Airbus subsidiary APWorks; virtual prototyping firm the ESI Group; and the Airbus Endowed Chair for Integrative Simulation and Engineering of Materials and Processes (ISEMP) of the University of Bremen.
Source:

http://3dprintingindustry.com/2016/04/08/airbus-opens-aerospace-3d-printing-factory-in-germany/

GE opened 200 M USD advanced manufacturing centre in Pune, India.

From the source:
In 2015, GE unveiled its $200 million, Multi-Modal advanced manufacturing facility in Chakan, Pune, part of the western Indian state of Maharashtra. Dubbed a “brilliant factory” by its creators, the facility was established to produce jet engine parts, locomotive components, wind turbines, and a host of other additively and traditionally manufactured components for a number of GE companies. The facility now employs around 1,500 workers, responsible for operating 3D printers and other machinery. "The idea is to service a multitude of businesses—from oil and gas, to aviation, transportation, and distributed power—all under the same roof," said GE's Amit Kumar, overseer of the Multi-Modal facility, via TechRepublic.
The Multi-Modal facility provides GE with several advantages. By bringing a number of interconnected operations under one roof, the company will allegedly save up to ten times as much money than if it had established individual facilities for separate business lines. The facility is also helping to bring plastic and metal additive manufacturing technology to its India operations, an advancement which offers the company huge flexibility and cost-saving potential.

Eventually, the Pune facility will produce critical end-use components such as the jet engine fuel nozzle, but it will first service a more urgent need: 3D printing replacement parts for broken machinery—parts that would otherwise have to be made in bulk and stored, or sourced from an external supplier. Replacement parts, especially for older appliances, can be incredibly difficult to source when those appliances are discontinued or simply made in small quantities. 3D printing these replacement parts is much faster than producing them using traditional manufacturing techniques, with previous timescales of three to five months reduced to around one week when additive manufacturing is implemented
Can you spot a single human worker?

Source:

http://www.3ders.org/articles/20160407-ge-200-million-multi-modal-3d-printing-factory-pune-india-develop-critical-end-use-parts.html


Update (27.06.2016.):

GE Oil & Gas is opening new 3D printing factory line with advanced robotics in Talamona, Italy. It is investing some 10 million USD in new production lines to 3D print burners for gas turbine combustion chambers and other advanced components such as nozzles. These new advanced manufacturing lines establishes this site as a center of excellence for the oil and gas industry. It also used advanced production software to manage the factory.
“The use of automated production and new techniques like additive manufacturing allow us to develop parts and products more efficiently, precisely and cost-effectively, accelerating the speed at which we can bring product to market,” said Davide Marrani, general manager for manufacturing for GE Oil & Gas’ Turbomachinery Solutions business line.

“The opportunities for the application of additive manufacturing and 3D printing in the oil and gas industry are only just starting to be explored, and it will require an ongoing rethink of component design and production approach,” said Massimiliano Cecconi, GE Oil & Gas Materials & Manufacturing Technologies Executive.
Source: http://www.genewsroom.com/press-releases/ge-oil-gas-use-robotics-and-3d-printing-futuristic-talamona-plant-282977

You can see the factory grounds and some robotic machines with end products here: http://www.gereports.com/land-of-silk-and-lasers-bespoke-3d-printing-factory-thrives-in-italys-fashion-heartland/

As factories as growing so is the software ecosystem that connects them B2B and B2C. Fast Radius has developed "virtual inventory" software for their 3d printing factory. It enables companies to deliver parts "on demand" and "just in time". Rick Smith from Fast Radius said:
“On average, the rule of thumb for the cost of holding physical inventory is about 25 percent the cost of the part per year,” he explained. “There is a significant cost in terms of cost of capital, warehousing space, security and damage. The other major problem with physical inventory is that you’ve got to produce in large volumes to get the unit costs low. This works great when you’re producing iPhones and you know you’re going to sell 10 million of them. But, when all of a sudden you’ve got an essential part and you know you’re only going to need 15 of them per year—maybe it’s a critical part to a machine in a manufacturing operation that doesn’t break very often, but is extremely important when it does break—then it doesn’t make sense to go through the setup and all of the costs related to doing a larger-scale production.”
The centralized manufacturing model of the 20th century may not be done away with soon, but the shift is already under way. To introduce its 3D printing services to potential OEMs, Fast Radius has partnered with about a dozen companies that are looking to make the shift to a virtual inventory. “To start,” Smith explained, “the companies that we’re working with are identifying 1,000 or 1,500 parts that are excellent candidates for on demand production. This may be a small percentage of their overall inventory, but as costs drop precipitously and quality continues to rise over time, these companies know that a larger and larger percentage of physical inventory will be moved to a virtual inventory model.”
Source: http://www.engineering.com/3DPrinting/3DPrintingArticles/ArticleID/12222/Fast-Radius-Introduces-Virtual-Inventory-for-21st-Century-Manufacturing.aspx

Aakar Brainboard v2 Indian open source control electronics

Aakar Brainboard v2 is a new modular open source electronic controller board from India .

Here is the summary from the Indiegogo campaign page:
Aakar means Shape in Hindi. Aakar Brainboard v2 is a modular CNC controller board based on LPC1768/69 Cortex-M3 chip. Due to its modular design it allows easier upgrades as per requirements and easy replacement if there is any broken part. It runs on open source Smoothie modular firmware and is targeted at 3D Printers, Laser cutters, CNC Mills, Pick and Place and other small or Mid-size CNC machines. Upgrade your machines for higher performance and features.



Here is more detailed presentation:




Aakar Brainboard v2 tech specs:

Microcontroller
  • NXP LPC 1768 32-bits Cortex-M3 MCU, running at 100Mhz. 512kB Flash, 64kB RAM.
  • Drag and drop flashing : simply drop a new firmware file to the Aakar drive to update.
  • USB2 Composite device : shows to the computer as both a Serial device, and a Mass Storage device ( exposing the SD-card).
  • Ethernet.
Power outputs
  • Up to 3 through hole 10A, Mosfets sharing a power circuit.
  • Up to 2 Mosfets with options of regulated 12V output for Fans.
  • One Mosfet with separate power supply 20A, up to 36V.
  • One optically isolated DPDT relay ~240V,5A for driving AC loads like milling tools or vacuum pumps.
  • Regulated 5V and 12V headers.
  • Two standard servo connector powered from onboard 5V regulator.
Inputs
  • 4 Thermistor (12-bit ADC ) inputs.
  • 6 Endstop inputs.
  • Play/Pause LED and Button
  • Connector for Serial Graphic LCD Panel with encoder and buzzer.
Firmware
  • SD bootloader customized for Aakar Brainboard allows drag and drop firmware upgrades.
  • Runs the highly-modular Smoothieware firmware.
Stepper drivers
  • 3 to 5 Allegro A4983 or DRV8825 stepper driver modules.
  • Each capable of driving bipolar steppers up to 35V and 2A(DRV8825).
  • Microstepping control of individual stepper to give greater flexibility.
Power inputs
  • True single input power operation by configuring jumpers(by default jupers are configured in this state).
  • Main 12-24V (Stepper drivers ) power can be connected using a 5mm screw terminal or standard 2x2 ATX CPU power connector.
  • 5V input can be taken directly from the USB cable or supplied by a 5V switching regulator installed on the board.
  • Series fused input for heated bed MOSFET with seperate power input.
Extensibility
  • Regulated 12V and regulated 5V headers.
  • 1 SPI connector with selectable 3.3V or 5V vcc.
  • 1 SPI/UART connector with selectable 3.3V or 5V vcc
  • 1 I2C connector with selectable 3.3V or 5V pull-ups and vcc.
  • 1 I2C/UART connector with selectable 3.3V or 5V vcc.
  • 1 UART connector FTDI cable compatible pinout.
  • All GPIO pins broken out on headers.
  • 4 LEDs.
  • Stepper signal pins are broken out for connection external stepper drivcers.
  • Serial graphic LCD panel with rotary encoder or push button control panel, many connectivity options.
Design
  • Dimensions are 110x150mm.
Aakar website:



3DPrintTech is a free CAD plugin for model splitting and nesting for efficient batch printing

3DPrintTech is a free software from India that will enable you to print objects larger than your printvolume by splitting them into smaller modules.

From the homepage:
3DPrintTech is CAD plugin for model splitting and nesting for efficient batch printing. It helps the user to print objects larger than build volume of a 3D printer. App splits the large model in small components as per your printer settings. It also creates the connectors to help you glue the components to make your original large model. User can define various parameters of splitting.
User has an option to scale the model. Also to get separated view of split parts can use Explode.
3DPrintTech has unique feature 3D Nesting. 3D Nesting helps you combine many small components in one single printing process by 3D packing with clearance. This helps you to save time, energy and money.

3DPrintTech also provides the option of Export to save the split parts or nested parts as stl files which can be directly use for printing.
Also user can do all these processes for his/her own customized printer too by adding it to the existing list of printers.
As 3DPrintTech is developed by using Confluence Framework, it supports:
  • AutoCAD 2014
  • Inventor 2014
  • Solidworks 2013
In future versions of 3DPrintTech using Confluence Framework, it will support more CAD softwares like Revit, Rhino, Creo, NX etc.
From the press release:
Pune, India - July 25, 2014 – Centre for Computational Technologies Pvt. Ltd. (CCTech), a CAD and CAM product development company, announced today launch of new application 3DPrintTech for maker community. 3DPrintTech helps maker to build object larger than build volume of any 3D printer. App also provides the functionality to pack small objects in given build volume which help to save time and money to user. 3DPrintTech is currently available for FREE of cost and works as CAD plugin with Autodesk Inventor 2014, AutoCAD 2014 and SolidWorks 2013.
3DPrintTech is designed for maker community who faces challenge to print larger objects on small 3D printer quickly. Processes of converting your design into small parts are time consuming and require good CAD modelling expertise. We realized there has to be a better way for this particular problem. Our R&D team came up with an application that can divide design of large object into small connectable components within few minutes. App also provides user option to control the cylindrical connectors as per his requirement. User can define the connector in terms of radius, length and taper angle. User also control the distance between the connectors, distance between connector and object surface.
Next problem of maker community is packing of multiple components in one print batch. One option for maker is to manually pack as many possible objects within build volume. He has to make sure that packed objects does not intersect or touch each other. To solve this problem, we provide a feature called 3D Packing. It creates the batch of 3DPrintings from collection of many small components. In our benchmarking, we found that for many cases our 3D Packing helped to reduce the 3D Printing batches from 10 to 1. This is definitely going to help makers to print more objects in less time and less money.
3D printing is continuously evolving technology. Therefore app has provided an interface to add your custom printer. App provides many utility functions such as Exporting processed objects to 3D printable STL file, Explode objects for quick inspection, scaling the object for unit conversion or fitting into printer. As 3DPrintTech works within a CAD system so you can do multiple design iterations without leaving the CAD application. All the 3DPrintTech operations are nondestructive and hence keep your design intact.
Sandip Jadhav, (Co-Founder & CEO, CCTech) says “3DPrintTech should help maker to improve productivity by great degree. It will also help maker to push envelope by making new large 3d objects. 3DPrintTech 1.0 was released on Autodesk App exchange in Autodesk University 2013. 3DPrintTech app received the great response and feedback. Out development team incorporated these user suggestions in our final product. App’s ability to create objects larger than the print volume using our automated splitting technique and packing of small components by efficiently nesting is key strength. 3DPrintTech is developed using CAD application development framework known as Confluence Framework. Therefore it works for multiple CAD systems seamlessly. In future we would provide more choices of connectors, packing types and more CAD platforms".
You can download 3DPrintTech software from http://labs.cctech.co.in/3dprinttech. To know more about the 3DPrintTech software & capabilities kindly contact labs@cctech.co.in.

http://labs.cctech.co.in/3dprinttech/



Solidry is new 3d model marketplace focused on Indian market

Solidry is new 3d model and 3d printing marketplace from India. They are the first such service based in India. There are many new online marketplaces, but community development is always critical. We will see how they develop in the future.
All you Indian readers, go and check them out.

Good luck Solidry!





























http://www.solidry.com/


Protoprint will produce filament from garbage in partnership with Indian waste pickers cooperatives






Protoprint is a social enterprise based in India that empowers waste pickers with the technology to produce 3D printer filament from waste plastic. They set up their waste plastic processing and filament extruder near waste sites and work in partnership with waste pickers cooperatives to establish the supply chain and provide more earnings for waste pickers.

Protoprint also sells 3d printers and wants to establish community 3d printing centers. 
Very interesting story, I hope we will here from it more in the future.

www.protoprint.in





Julia 3d printer by Fractal Works from India





Another day, another FDM 3d printer. This is Julia, it comes from India and it is made by Fractal Works, company based in city of Manipal.
I wonder how did they choose the name  "Julia" for a 3d printer? (Update: Julia is some sort of fractal type, another is Mendelbrot)

Julia technical specifications:
  • Print technology: Fused Deposition Model
  • Build volume: 21x20x20 cm3 (l x w x h), (8.3 x 7.8 x7.8 in3), 8400 cm3, ( 505 in3 )
  • Layer Resolution: 100 microns ( 0.0039 In )
  • Filament Diameter: 1.75 mm
  • Filament Compatibility: PLA, ABS, HIPS Polymer, Laywood, Nylon 618, Polycarbonate
  • Nozzle Diameter: 0.4 mm ( 0,015 In )
  • Product Weight: ~12 Kg
  • Shipping Dimensions: 54 X 54 X 48 cm 3 ( l x w x h )
  • Shipping Weight: ~ 15 Kg ( includes accessory kit )
  • Build Platform: Heated PCB Bed
  • Software: Slicing CURA , Slicer
  • Interface: Pronterface
  • Supported File Types: STL, OBJ
  • Operating Systems: Windows XP , Windows 7 and Windows 8.1, Mac OsX ( 10.7 and above), Linux ( Ubuntu 12.04 and above )
  • Connectivity: USB, SD Card
  • Price: unknown?

http://fracktal.in/



























New 3d printers from India: Brahma3 Anvil and Mi3D Pro X9

More printers are coming up in India. 3d printers are emerging everywhere. Go India Go!

Brahma3 Anvil






























Technical specifications of Brahma3 Anvil:
  • Build Volume: 240 x 240 x 240 mm
  • No. of Extruders: 1
  • Nozzle Diameter: 0.4 mm
  • Maximum Extruder Temperature: 350°c
  • Hot End: All metal hot end
  • Heated Bed with a glass print surface
  • Build Platform: Metal / Glass
  • Aluminum frame
  • Weight: < 15kg
  • Dimensions (L, D, H): 380 X 400 X 500 mm
  • Slicing Support: Cloud Based
  • WiFi supported
  • Control unit is Android powered touchscreen tablet
  • Power Consumption Rating: 12V, 260W
  • Price: Rs. 100,000 (USD 1,610)

http://www.brahma3.com/


Mi3D Pro X9








Only information in video description is available for Mi3D Pro x9 3d printer:

  • Mi3D ProX9 for Industry Applications/Expert Designers
  • INDIA's First Double Extruder Printer
  • First printer to support print resume on powercut

Source:

http://www.youtube.com/channel/UCoaFfPE1-HFS7-gEZiftrBA?feature=watch

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